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One-dimensional Heat Transfer Study of a Fiber-Reinforced Wind Epoxy Composite System in Vacuum Assisted Resin Transfer Molding Process

Identifieur interne : 000050 ( Main/Exploration ); précédent : 000049; suivant : 000051

One-dimensional Heat Transfer Study of a Fiber-Reinforced Wind Epoxy Composite System in Vacuum Assisted Resin Transfer Molding Process

Auteurs : YUAN LU [République populaire de Chine] ; SHUANG MEI [République populaire de Chine] ; Pi-Hui Pi [République populaire de Chine] ; TAILIANG HAN [République populaire de Chine] ; JIANG CHENG [République populaire de Chine] ; Xiu-Fang Wen [République populaire de Chine] ; Zhi-Qi Cai [République populaire de Chine] ; YU QIAN [République populaire de Chine]

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Mots-clés :

Abstract

To investigate the influence of curing behavior of a wind-epoxy resin in vacuum assisted resin transfer molding (VARTM) process, numerical analysis of the heat transfer study of VARTM process was established to characterize temperature distribution in one dimension by directly solving heat equation and was compared with the result of experiment. Differential scanning calorimeter (DSC) was applied to test curing kinetic parameters of the epoxy system, which was required to evaluate internal thermal source and analyze heat transfer equations. Two models, such as nth order curing model and autocatalytic model, were established to solve the heat transfer equation. Combining the theoretical results with nth order curing model and experiment, it can be known that in early stage, temperature distribution correlates well with the experiment results due to the dominant chemical-controlled reaction, while great discrepancy appears in the latter stage due to diffusion-controlled reaction taking over. The result of the heat equation solved by autocatalytic model correlates well with the experiment results.


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<term>Fiber reinforced material</term>
<term>Glass fiber</term>
<term>Heat transfer</term>
<term>Kinetic model</term>
<term>Kinetics</term>
<term>Laminate</term>
<term>Mineral fiber</term>
<term>Modeling</term>
<term>Numerical simulation</term>
<term>Theoretical study</term>
<term>Transfer molding</term>
<term>Vacuum molding</term>
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<term>Matériau renforcé fibre</term>
<term>Epoxyde résine</term>
<term>Matériau composite</term>
<term>Moulage sous vide</term>
<term>Moulage transfert</term>
<term>Simulation numérique</term>
<term>Cinétique</term>
<term>Fibre verre</term>
<term>Stratifié</term>
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<term>Transfert chaleur</term>
<term>Durcissement (matière plastique)</term>
<term>Etude théorique</term>
<term>Vérification expérimentale</term>
<term>Fibre minérale</term>
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<div type="abstract" xml:lang="en">To investigate the influence of curing behavior of a wind-epoxy resin in vacuum assisted resin transfer molding (VARTM) process, numerical analysis of the heat transfer study of VARTM process was established to characterize temperature distribution in one dimension by directly solving heat equation and was compared with the result of experiment. Differential scanning calorimeter (DSC) was applied to test curing kinetic parameters of the epoxy system, which was required to evaluate internal thermal source and analyze heat transfer equations. Two models, such as nth order curing model and autocatalytic model, were established to solve the heat transfer equation. Combining the theoretical results with nth order curing model and experiment, it can be known that in early stage, temperature distribution correlates well with the experiment results due to the dominant chemical-controlled reaction, while great discrepancy appears in the latter stage due to diffusion-controlled reaction taking over. The result of the heat equation solved by autocatalytic model correlates well with the experiment results.</div>
</front>
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<name sortKey="Shuang Mei" sort="Shuang Mei" uniqKey="Shuang Mei" last="Shuang Mei">SHUANG MEI</name>
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<name sortKey="Yu Qian" sort="Yu Qian" uniqKey="Yu Qian" last="Yu Qian">YU QIAN</name>
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